Hooke's Law Problem Homework: Extension & Work Done

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A mass of 1.0 kg attached to a spring with a spring constant of 50 N/m is analyzed under Hooke's Law on a 45-degree incline. The initial calculations incorrectly used the tangent function for resolving forces, leading to an extension of 0.196 m. Correcting this, the extension is determined to be 0.139 m, with the work done by gravity recalculated to 0.483 Joules using the potential energy formula U = (1/2)kx^2. The discussion emphasizes the importance of accurate force component resolution in physics problems. The final answers reflect a clearer understanding of the principles involved.
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Homework Statement



A mass of 1.0kg is attached to a spring obeying Hooke's Law F = k.s, where F is the force applied and s the spring extension. The spring constant, k is 50 N/m. The spring and the object lie on a surface tilted 45 degrees with respect to the vertical Neglect friction and answer the following questions:

a. What is the extension of the spring?

b. What is the work done by gravity in extending the spring by the above extension?

Homework Equations



F = k.s

W = f.d

The Attempt at a Solution



a)

1kg = 9.8N (force)

Then resolve force into vert and horiz components= Tan45 x 9.8 = 9.8 (as tan45 is 1).

Rearrange F = k.s into F/k = s

9.8/50 = 0.196m = s

b)

Work done by gravity:

9.8N x 0.196 = 1.92 Joules

Does anyone know if this is right?

Thanks!
 
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Then resolve force into vert and horiz components= Tan45 x 9.8 = 9.8 (as tan45 is 1).
This is wrong. Draw the right triangle representing the force and its components; the hypotenuse is the weight force (directed straight downward), so the components must be less than that.
 
Koncept said:

Homework Statement


a)

1kg = 9.8N (force)

Then resolve force into vert and horiz components= Tan45 x 9.8 = 9.8 (as tan45 is 1).

Rearrange F = k.s into F/k = s

9.8/50 = 0.196m = s

Where did you get tan45 from? The parallel component of the weight is 9.8*sin(45).
b)

Work done by gravity:

9.8N x 0.196 = 1.92 Joules

Does anyone know if this is right?

Thanks!

No, because W=F*d only works if both F and d remain constant. F certainly does, but not d. Use the formula for potential energy instead: U=(1/2)kx^2. That's equal to the work done by gravity.
 
Ahh yes that makes a lot more sense! Thanks for the help :)

So I now make that:

a) 0.139m

b) 0.483 J
 

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